The modern microscope is an incredibly powerful tool when it comes to detecting disease, but typically the biological material being studied needs to be stained or dyed to reveal its secrets. This can ...

"While it is possible to scan microscope slides for digital pathology, we digitally image the intact tissues and bypass the need to prepare slides, which is simpler, faster and potentially less ...

A new X-ray imaging technique could transform how hospitals analyze tissue samples, potentially speeding up diagnoses and ...

Australian researchers have brought the humble glass slide, used in millions of microscopes around the world, into the 21st century. They’ve used nanotechnology to turn this small piece of plain glass ...

A deep-learning computer network was 100 percent accurate in determining whether invasive forms of breast cancer were present in whole biopsy slides. The network correctly made the same determination ...

In the late 1990s Dirk G. Soenksen imagined a new future for pathology. At the time, pathologists often sat on telephone books to get a good view through their microscopes, yet Soenksen’s children ...

These arrays consist of up to 200 tissue cores arrayed on standard microscope slides. Applied in duplicate in a paraffin matrix, the current sets of 600-µm diameter by 4-mm thick cores are derived ...

The scientists harnessed nanotechnology to develop the NanoMslide, the world’s first smart microscope slide. La Trobe physicist and professor of optics Brian Abbey and his university colleagues ...

Wesley R. Coe, professor of zoology at Yale during the early 20th century, devoted his career to studying ribbon worms — a group of mostly marine-dwelling creatures that includes more than 1,000 known ...

The development of the mesodissection system followed an ISO 9001 compliant phase review process. The breadboard prototype instrument was developed at AvanSci Bio using a modified commercial milling ...